Oil Dispersible Upconverting Nanoparticles

450 INR/Bag

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Product Details:

Shape Spherical or Hexagonal
Other Names UCNPs, Upconversion Nanoprobes
Taste Odorless and Tasteless
Storage Store in a cool, dry, and dark place in tightly sealed container
Ph Level Neutral (in Oil Phase)
Molecular Weight Variable
Structural Formula Crystalline NaYF4 lattice doped with Yb, Er
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Oil Dispersible Upconverting Nanoparticles Price And Quantity

Minimum Order Quantity 1 Gram
Price 450 INR/Bag

Particle Size 20-40 nm (Typical)
Emission Wavelengths 540 nm, 655 nm (Typical)
Safety Precaution For laboratory use only, avoid inhalation or ingestion
Excitation Wavelength 980 nm (Near-Infrared)
Dispersion Medium Cyclohexane, Hexane, or Toluene
Dispersibility Excellent in non-polar organic solvents
Optical Property Strong Green and Red Upconversion under 980 nm NIR Excitation
Packaging Type Sealed Glass Vials or HDPE Bottles
Surface Modification Hydrophobic Ligand Coated
Color in Solution Milky white to pale yellow
Shelf Life 12 months under recommended storage conditions

Oil Dispersible Upconverting Nanoparticles Product Specifications

Structural Formula Crystalline NaYF4 lattice doped with Yb, Er
Purity >99%
Refractive Rate 1.45-1.50
Poisonous Yes
Molecular Formula NaYF4:Yb,Er
Smell Odorless
HS Code 28429090
Density 4.2 Gram per cubic centimeter(g/cm3)
Solubility Oil Dispersible
Type Upconverting Nanoparticles
Standard Meets analytical grade and research specifications
Form Colloidal Dispersion in Oil
Other Names UCNPs, Upconversion Nanoprobes
Shape Spherical or Hexagonal
Taste Odorless and Tasteless
Classification Inorganic Fluorescent Nanomaterial
Application Bioimaging, Photonics, Security, Sensing
Storage Store in a cool, dry, and dark place in tightly sealed container
Ph Level Neutral (in Oil Phase)
Usage Used in research, imaging, detection, labeling, and advanced material applications
Chemical Name NaYF4:Yb,Er Upconverting Nanoparticles
Main Material NaYF4:Yb,Er (Sodium Yttrium Fluoride Doped with Ytterbium, Erbium)
Grade Research Grade
Molecular Weight Variable

Particle Size 20-40 nm (Typical)
Emission Wavelengths 540 nm, 655 nm (Typical)
Safety Precaution For laboratory use only, avoid inhalation or ingestion
Excitation Wavelength 980 nm (Near-Infrared)
Dispersion Medium Cyclohexane, Hexane, or Toluene
Dispersibility Excellent in non-polar organic solvents
Optical Property Strong Green and Red Upconversion under 980 nm NIR Excitation
Packaging Type Sealed Glass Vials or HDPE Bottles
Surface Modification Hydrophobic Ligand Coated
Color in Solution Milky white to pale yellow
Shelf Life 12 months under recommended storage conditions

Oil Dispersible Upconverting Nanoparticles Trade Information

Main Export Market(s) Western Europe, Eastern Europe, Middle East, Central America, Africa, South America, Australia, Asia, North America
Main Domestic Market All India

Product Description

Oil Dispersible Upconverting Nanoparticles

Catalog code	NCZ-UCNP-102
Appearance	yellowish or light brown solution
Solvent	Cyclohexane
Excitation wavelength	975 nm
MF	NaYREF4(RE: Yb, Er, Tm, Gd, Mn, Lu)
CAS Number	110-82-7 (Cyclohexane), 7681-49-4(Sodium fluoride)
Sensitizer	Ytterbium (Yb3+)
Concentration	5 mg/mL, Concentration Customization: Possible
Particle Size and Morphology	25 nm, nanosized spheres
Surface Modified	Oleic acid

Solvent: Non-polar solvent such as n-hexane, cyclohexane or toluene. Please consult before ordering.

Activator	Emission wavelength	Fluorescence
Thulium (Tm3+)	365/475 nm	Purple-Blue
Erbium (Er3+)	545/660 nm	Green-Yellow
Thulium (Tm3+)	804 nm	Near-infrared

Exceptional Optical Performance

The UCNPs provide robust green and red luminescent responses when irradiated with 980 nm NIR light, making them highly suitable for sensitive detection, imaging, and labeling applications. Their strong upconversion capability enhances visualization and data accuracy in research and industrial settings.

Optimized for Non-Polar Solvent Dispersion

Surface modification with hydrophobic ligands allows these nanoparticles to disperse effectively in cyclohexane, hexane, or toluene. The colloidal stability in oil phases supports their integration into bespoke materials and devices where traditional water-based systems fail.

Stable and Safe for Laboratory Research

Packaged to prevent contamination and degradation, UCNPs are non-toxic for research use and remain stable for up to 12 months in cool, dry, dark storage. They offer a neutral pH and high purity, meeting analytical grade and research specifications for consistent experimental results.

FAQs of Oil Dispersible Upconverting Nanoparticles:

Q: How should I properly store Oil Dispersible Upconverting Nanoparticles to maintain their shelf life?

A: To preserve the UCNPs for up to 12 months, store them in tightly sealed glass vials or HDPE bottles in a cool, dry, and dark place. Ensure they are protected from moisture and direct sunlight for optimum stability.

Q: What are the main advantages of using hydrophobic ligand-coated UCNPs in research applications?

A: Hydrophobic ligand-coated UCNPs disperse excellently in non-polar organic solvents such as cyclohexane, hexane, or toluene. This feature enhances their compatibility with oil-based systems and broadens their application range to advanced materials and devices.

Q: What is the typical process for using these nanoparticles in bioimaging?

A: Researchers inject or incubate UCNPs with biological samples, then excite them at 980 nm NIR. The nanoparticles emit strong green and red luminescence at 540 nm and 655 nm, which is detected using appropriate imaging equipment for cell tracking or molecular labeling.

Q: Where can the Oil Dispersible UCNPs be used beyond bioimaging?

A: Besides bioimaging, these nanoparticles are widely utilized in photonics, security marking, sensing, and labeling due to their robust upconversion properties and stable dispersion in oil phases.

Q: What safety precautions are recommended when handling these nanoparticles in the laboratory?

A: UCNPs are intended strictly for laboratory use. Avoid inhalation, ingestion, and skin contact. Always use appropriate personal protective equipment, work in well-ventilated areas, and follow institutional safety protocols.

Q: When do the UCNPs exhibit their strong upconversion emission?

A: The nanoparticles exhibit strong green and red upconversion emission when excited under 980 nm near-infrared (NIR) light. Emissions are detected typically at 540 nm (green) and 655 nm (red) wavelengths.

Q: How does the dispersibility of these UCNPs benefit advanced material development?

A: Their excellent dispersibility in non-polar solvents allows seamless integration into oil-based matrices, enabling the creation of specialized coatings, composites, and optoelectronic devices where aqueous dispersions are unsuitable.

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